As a powerful toxin that could cause fatal death, the detection of ochratoxin A (OTA) has gained much attention in the fields of environmental and food sciences. In this study, an internal standard (IS) aptasensor was synthesized through a facile and scalable method to enhance the sensitivity and quantativity of OTA detection. The substrates were formed through hybridization of modified aptamers on Au@Ag core-shell nanoparticles (NPs) and Au films at a silicon surface. Incorporated with 4-ATP and 4-NTP as an internal standard, OTA recognition of such aptamers could cause NP release and signal losses. Utilizing the strong peaks at 1078 and 1335 cm -1 , which represent 4-ATP and 4-NTP, respectively, the intensity ratio of I 1078 / I 1335 could delegate the OTA concentration in a ratiometric manner. Therefore, the highest ratio of I 1078 / I 1335 represents the lowest concentration of OTA, and a lower ratio means a higher OTA concentration. Quantitatively, the high consistency for OTA detection was achieved through correction of signal losses by IS references with an R 2 of 0.993 and RSD of 0.94%, and the OTA detection limit of 5 pM was achieved. Herein, such an IS aptasensor provides a reliable and scalable detection platform for various molecules in a continuous and high-throughput manner and holds great promise in future quantitative SERS measurements.
Keyphrases
- sensitive detection
- label free
- loop mediated isothermal amplification
- quantum dots
- high throughput
- real time pcr
- reduced graphene oxide
- raman spectroscopy
- escherichia coli
- gold nanoparticles
- risk assessment
- air pollution
- particulate matter
- mass spectrometry
- nitric oxide
- hydrogen peroxide
- room temperature
- human health
- artificial intelligence
- polycyclic aromatic hydrocarbons
- fluorescent probe
- current status